Pallet conveyor

ABSTRACT

A pallet conveyor ( 70 ), in particular a people conveyor, comprises a plurality of pallets ( 8 ) interconnected to form an endless pallet band which is moveable in a conveying direction, and a pallet chain ( 50 ) drivingly coupled to the pallet band. The pallet chain ( 50 ) comprises a plurality of pallet chain links ( 42; 44 ); the pitch of the pallet band is larger than the pitch of the pallet chain ( 50 ); and each pallet is ( 8 ) non-rotatably connected to or integrally formed with at least one of the pallet chain links ( 42; 44 ).

PRIORITY

This application claims priority to European Patent Application No. 16165655.8, filed 15 Apr. 2016, and all the benefits accruing therefrom under 35 U.S.C. § 119, the contents of which in its entirety are herein incorporated by reference.

BACKGROUND

The invention relates to a pallet conveyor, in particular a people conveyor such as a moving walkway or escalator, comprising a plurality of pallets, forming an endless pallet band which is moveable in a conveying direction. The pallets are drivingly coupled to at least one pallet chain, typically to two pallet chains provided on both lateral sides of the pallets.

Conventional pallet conveyors having pallets, which are non-rotatably fixed to the pallet chain, require large turnaround diameters for the pallet chain resulting in large pit heights at the turnaround sections. For reducing the space requirements in the turnaround sections, in other configurations the pallets do a reverse movement when traveling through the turnaround sections. These systems need accurate guiding elements for the pallets, separately from the guiding mechanism of the pallet chain, to avoid a conflict between the pallets in the turnaround sections.

Therefore, it would be beneficial to provide a pallet conveyor with an improved turnaround mechanism, which in particular reduces the space requirements in the turnaround sections while avoiding the need for accurate guiding elements for the pallets.

SUMMARY

A pallet conveyor, in particular a people conveyor, according to an exemplary embodiment of the invention comprises a plurality of pallets. The pallets are interconnected to form an endless pallet band which is moveable in a conveying direction. At least one pallet chain is drivingly coupled to the pallet band. The at least one pallet chain comprises a plurality of pallet chain links. The pitch of the pallet band is larger than the pitch of the pallet chain. The chain pitch in particular may be an integral fraction of the pallet length and the number of chain links may be an integer multiple of the number of pallets. Each pallet is non-rotatably connected to, or integrally formed with, at least one of the pallet chain links.

In a pallet conveyor according to an exemplary embodiment of the invention the pallets pass through the turnaround sections of the pallet conveyor parallel to the respective pallet chain link they are connected with. As there is no relative movement between the pallet and the pallet chain link connected to it, the pallets can be guided by the pallet chain in the turnaround sections, and hence there is no need for providing accurate guiding elements for the pallets separately. In consequence, the installation and maintenance of the pallet conveyor and the associated costs are considerably reduced. Relatively small turning diameters can be achieved in the turnaround sections, thus requiring only very shallow space below the floor in some embodiments.

Although the term pallet is used throughout the present disclosure, it is to be understood that the present invention is applicable to pallet conveyors of any type, particularly to moving walkways or to escalators. In escalators, the pallets are usually referred to as steps and it goes without saying that with respect to an escalator the term pallet, as used herein, refers to the steps or parts of the steps (like tread, riser, skirt panels, etc.).

BRIEF DESCRIPTION OF THE DRAWINGS

Exemplary embodiments of the invention will be described in the following with respect to the enclosed figures:

FIG. 1 shows a perspective view of a pallet conveyor according to a first exemplary embodiment.

FIG. 2 shows a side view of the pallet conveyor according to the first exemplary embodiment.

FIG. 3 shows a perspective view of a pallet conveyor according to a second exemplary embodiment.

FIG. 4 shows a side view of the pallet conveyor according to the second exemplary embodiment.

FIG. 5 shows a perspective view of a pallet conveyor according to a third exemplary embodiment.

FIG. 6 shows a top view of a pallet conveyor according to the third exemplary embodiment.

FIG. 7 illustrates a simplified cross sectional view of an exemplary embodiment of a pallet.

FIG. 8 illustrates a simplified cross sectional view of another exemplary embodiment of a pallet.

FIG. 9 illustrates a simplified cross sectional view of yet another exemplary embodiment of a pallet.

FIG. 10 illustrates a simplified cross sectional view of a further exemplary embodiment of a pallet.

FIG. 11 shows a perspective view of a fixing module according to an exemplary embodiment.

FIG. 11a shows the fixing module of FIG. 11 attached to a pallet of a pallet conveyor.

FIG. 12 shows a first embodiment of a pallet assembly comprising the fixing module, as it is depicted in FIG. 11, and an embodiment of a pallet, as it is shown in FIG. 7.

FIG. 13 shows a second embodiment of a pallet assembly comprising the fixing module, as it is depicted in FIG. 11, and an embodiment of a pallet, as it is shown in FIG. 10.

FIGS. 13a to 13c depict a pallet comprising an integrated fixing module.

FIG. 14 illustrates the connection of the fixing module to a pallet chain according to an embodiment.

FIG. 15 illustrates the connection of the fixing module to a pallet chain according to another embodiment.

FIG. 15a illustrates an alternative configuration in which the fixing modules are fixed to intermediate bolts.

FIG. 16 shows an embodiment, comprising a retaining flap.

FIG. 16a illustrates a pallet having a non-constant cross section in a direction perpendicular to the conveying direction.

FIG. 17 illustrates a securing element comprising an additional installation plate.

FIG. 18 illustrates a securing element comprising an installation plate and installation flaps.

DETAILED DESCRIPTION

FIG. 1 shows a perspective view and FIG. 2 shows a side view of a landing portion of a pallet conveyor 70 according to a first exemplary embodiment of the invention.

The pallet conveyor 70, which in particular may be a people conveyor such as a moving walkway, comprises a plurality of movable pallets 8. The pallets 8 are connected to each other to form an endless pallet band which is movable in a conveying direction. In the embodiment shown, consecutive pallets 8 are connected to each other by means of two pallet chains 50 extending on both lateral sides of the pallets 8 for forming the endless pallet band. The pallet chains 50 are driven by a drive (not shown in the Figures), e.g. via a sprocket 78, and drivingly coupled to the pallet band, such as to drive the pallet band in the conveying direction.

The pallet conveyor 70 in particular comprises an upper transportation portion 71 and a lower return portion 73. The pallets 8 in the upper transportation portion 71 may move horizontally from the right side to the left side in FIGS. 1 and 2 or in the opposite direction from left to right.

Although the pallet conveyor 70 shown in FIGS. 1 and 2 extends horizontally, it also may be arranged in an inclined orientation for allowing transportation between different levels of height.

Each of the pallet chains 50 comprises a plurality of pallet chain links 42, 44, in particular alternately inner pallet chain links 44 and outer pallet chain links 42. Each of the pallet chain links 42, 44 includes a pair of opposite pallet chain link plates 42 a, 42 b; 44 a, 44 b (cf. FIGS. 14 and 15). The pair of pallet chain link plates 44 a, 44 b of each inner pallet chain link 44 is sandwiched in between the pairs of pallet chain link plates 42 a, 42 b of its two adjacent outer pallet chain links 42. The pitch of the pallet chains 50 is smaller than the pitch of the pallet band, i.e. the number of pallet chain links 42, 44 in each of the pallet chains 50 is larger than the number of pallets 8 in the corresponding pallet band, although the pallet chain links 42, 44 follow the same endless path as the pallets 8.

In the exemplary embodiment shown in FIGS. 1 and 2, the pallet chains 50 in particular include twice as much pallet chain links 42, 44 as the corresponding pallet band includes pallets 8, respectively. The pallets 8 are non-rotatably connected to every second pallet chain link 42, 44, in particular to every outer pallet chain link 42. These outer pallet chain links 42 form first pallet chain links non-rotatably connected to one of the pallets 8. Thus, there is no relative movement between each of the pallets 8 and the first pallet chain link to which it is connected. The remaining other pallet chain links (in the embodiment of FIGS. 1 and 2, the inner pallet chain links 44) are not directly connected to any pallet 8. Rather, these other pallet chain links form second pallet chain links connecting two adjacent first pallet chain links with each other and simultaneously connecting two adjacent pallets 8 with each other to form the pallet band. While in the embodiment of FIGS. 1 and 2 each of the outer pallet chain links 42 forms a first pallet chain link, configurations are conceivable where only part of the outer pallet chain links 42 form first pallet chain links (e.g. only every second of the outer pallet chain links 42 forms a first pallet chain link, as shown in FIGS. 5 and 6). Moreover, configurations are conceivable where at least part of the inner pallet chain links 44 form the first pallet chain links and at least part of the outer pallet chain links 42 form the second pallet chain links. This may include configurations where each of the inner pallet chain links 44 forms a first pallet chain link.

The pallets 8 are in particular non-rotatably connected to the outer pallet chain links 42 by means of fixing modules 12, which will be described in more detail further below.

Treads 27 are attached to the pallets 8 for providing a moving conveying plane in the upper transportation portion 71 of the pallet conveyor 70. Persons using the pallet conveyor 70 stand on the treads 27 in the transportation portion 71 when using the pallet conveyor 70.

In order to avoid gaps within said conveying plane in the transportation portion 71, the extension of each of the treads 27 in the conveying direction, i.e. the horizontal direction in FIGS. 1 and 2, is larger than the length of each of the pallet chain links 42, 44 in said conveying direction. As a result, each tread 27 covers the same distance in the conveying direction as a plurality of adjacent pallet chain links 42, 44. (In the exemplary embodiment shown in FIGS. 1 and 2, the extension of each of the treads 27 in the conveying direction is twice as large the length of each of the pallet chain links 42, 44 in said conveying direction, in consequence each tread 27 covers the same distance as two adjacent pallet chain links 42, 44.)

The extension of each of the treads 27 in the conveying direction results in an overhang of the treads 27 with respect to a pallet carrier body 24 of the pallets 8. Said overhang may result in a tilting movement of the pallets 8 when a person is standing on a tread 27 when traveling in the transportation portion 71.

As one option to suppress such tilting movement, tension of the pallet chain 50 may be controlled in a suitable manner. Particularly, the pallet chain 50 may be biased, i.e. a tension force may be applied to the pallet chain 50. The tension force may be adjusted as high as required to sufficiently suppress tilting of the tread 27 when traveling in the transportation portion 71 and subject to a typical load. Additionally or alternatively, the tilting movement may be reduced by increasing the weight of each pallet 8.

Pallet rollers 54 are provided on the laterally outer side of each of the pallet chains 50, i.e. on the side of each pallet chain 50 which is opposite to the pallets 8. The pallet rollers 54 support the pallets 8 and the respective pallet chain 50 on guide rails (not shown in FIGS. 1 and 2) extending parallel to the pallet chain 50.

In the turnaround portions 75 (one of the turnaround portions 75 is shown on the left side of FIGS. 1 and 2) pallet chain rollers, which are arranged inside the pallet chain links 42, 44 and which are not visible in FIGS. 1 and 2, engage with the teeth of a turnaround sprocket 78 for transferring the pallet chain 50 from the upper transportation portion 71 into the lower return portion 73, and vice versa.

A corresponding turnaround sprocket 78 is arranged in an opposing second turnaround portion 75 of the pallet conveyor 70, which is not shown in the figures. The turnaround sprocket 78 in at least one of the turnaround portions 75 may be driven by a drive mechanism including a motor (not shown) for driving the pallet band of the pallet conveyor 70.

Alternatively or additionally a linear drive mechanism may be provided at least one position along the transportation portion 71 and/or the return portion 73.

The turnaround portion 75 of the pallet conveyor 70 is covered by a comb plate 74 including a comb 76. The comb 76 comprises a plurality of teeth which engage with corresponding teeth formed on top of the treads 27.

In the embodiment shown in FIGS. 1 and 2, the turnaround sprocket 78 comprises only five teeth. A turnaround sprocket 78 having a small number of teeth usually has a small diameter which results in a low height of the turnaround portion 75.

The tread 27 of each pallet 8 is attached to the pallet carrier body 24 of the pallet 8. In order to avoid that the pallet carrier bodies 24 of the pallets 8 interfere with each other in the turnaround portions 75, the pallet carrier bodies 24 have a tapered cross section with a broad side of the tapered cross section facing towards the tread 27 and a narrow side of the tapered cross section being most distant from the tread 27.

Such a tapered cross section of the pallet carrier bodies 24 allows for a small turnaround radius in the turnaround portions 75, as it is illustrated in particular in FIG. 2. The cross sections of the pallet carrier bodies 24 may have various shapes, which in particular may include trapezoidal or triangular cross sections. The cross sections may but do not need to be constant in a direction perpendicular to the conveying direction. Some examples for possible cross sections of the pallets 8 are discussed further below with reference to FIGS. 7 to 10 and 16 a.

Each of the pallets 8 is non-rotatably connected to a respective one of the first pallet chain links (in the embodiment shown in FIGS. 1 and 2: an outer chain link 42). Hence, the pallets 8 can be guided by the guiding mechanism of the pallet chain 50 throughout the endless path followed by the pallet chain 50 and the pallet band.

Particularly, there is no need for providing an additional guiding system for the pallets in the turnaround portions 75. As the pallets 8 are connected with each other by one, or a plurality of, second pallet chain links (in the embodiment of FIGS. 1 and 2: an inner chain link 44), the pallet band is flexible enough to follow very narrow turnaround diameters when traveling in the turnaround sections. This simplifies the construction, installation and maintenance of the pallet conveyor 70. A very compact configuration of the turnaround sections 75 is achievable using such configuration. E.g. sprockets with only a few number of teeth (e.g. a sprocket with only 5 teeth as shown in FIG. 1) having a small diameter, may be used. Therefore, only a very shallow pit is required in the turnaround sections 75. This configuration further enhances operational reliability of the pallet conveyor, as malfunctions, which may be caused by an additional guiding system for the pallets 8 in the turnaround sections 75, are avoided.

FIGS. 3 and 4 illustrate a perspective view and a side view of a turnaround portion 85 of a pallet conveyor 80 according to a second exemplary embodiment of the invention.

In order to simplify the illustration, the comb plate 74 and the comb 76, which are present in a pallet conveyor 80 according to the second embodiment as well, are not shown in FIGS. 3 and 4. Instead, an upper guide rail 82 a supporting the pallet chain 40 along the upper transportation portion 81 and a lower guide rail 84 a supporting the pallet chain 40 along the lower return portion 83 are shown.

Up-thrust tracks 82 b, 84 b are provided opposite to the guide rails 82 a, 84 a with the chain links 42, 44 being sandwiched between the guide rails 82 a, 84 a and the up-thrust tracks 82 b, 84 b. Sandwiching the chain links 42, 44 between the guide rails 82 a, 84 a and the up-thrust tracks 82 b, 84 b avoids tilting of the chain links 42, 44 and the pallets 8, which otherwise might occur in particular in case high loads are applied to the pallets 8 moving along the upper transportation portion 81 of the pallet conveyor 80.

The lower guide rail 84 a in the return portion 83 has an arcuate shape for minimizing the vertical height of the pallet conveyor 80 in its intermediate section, i.e. in the section between the turnaround portions 85, which is shown on the right side of FIG. 3.

The pallet conveyor 80 according to the second embodiment shown in FIGS. 3 and 4 is constructed similarly to the pallet conveyor 70 according to the first embodiment shown in FIGS. 1 and 2. In particular, the pallet conveyor 80 also comprises two pallet chains 40 comprising outer pallet chain links 42 and inner pallet chain links 44 connected to each other alternately. As in the embodiment shown in FIGS. 1 and 2, each pallet chain 40 comprises two pallet chain links 42, 44 per pallet 8, and the pallets 8 are non-rotatably connected to every second pallet chain link 42, 44, in particular to the outer pallet chain links 42. Thus, also in the embodiment of FIGS. 3 and 4, the outer pallet chain links 42 form first pallet chain links, and the inner pallet chain links 44 form second pallet chain links. Reference is made to the above description with respect to FIGS. 1 and 2 which applies in the same way with respect to FIGS. 3 and 4.

In the pallet conveyor 80 according to the second embodiment shown in FIGS. 3 and 4, the turnaround sprocket 88 comprises sixteen teeth instead of five teeth. As a result, the height of the turnaround portion 85 is considerably larger than in the first embodiment shown in FIGS. 1 and 2. The increased number of teeth reduces the polygonal effect of the pallet chains 40 and thus may avoid the need for additional means for compensating of the polygonal effect.

As in the pallet conveyor 80 according to the second embodiment the radius of the turnaround sprocket 88 is considerably larger than in the pallet conveyor 70 according to the first embodiment, the pallet carrier bodies 24 of the pallets 8 may be formed basically rectangularly in cross section without causing the risk of interference in the turnaround portions 85.

The pallets 8 in particular may be formed as basically rectangular metal profiles, which will be described in more details further below.

Contrary to the first embodiment there are no pallet rollers 54 provided outside the pallet chain links 42, 44. Instead, the pallet chain rollers, which engage with the teeth of the turnaround sprocket 88, are also configured for supporting the pallet chain 40 and the pallets 8 on the guide rails 82 a, 84 a. This avoids the need of providing additional pallet rollers.

The skilled person will understand that pallet rollers 54, as they are shown in FIGS. 1 and 2, may also be used in combination with the a turnaround sprocket 88 comprising sixteen teeth according to the second embodiment. On the other hand, a turnaround sprocket 78 comprising only five teeth according to the first embodiment may be employed without providing additional pallet rollers 54.

The skilled person will further understand that the number of five or sixteen teeth for the turnaround sprockets 78, 88 is only exemplary and that any number of teeth, which is considered appropriate, may be used.

Further, it is not mandatory that the number of pallet chain links 42, 44 of each pallet chain 40, 50 is twice as large as the number of pallets 8, 9. Instead, with N being a positive integer, N pallet chain links 42, 44 may be used per pallet 8, 9 when the extension of the treads 27 in the conveying direction is N-times larger than the extension of the pallet chain links 42, 44 in said conveying direction.

FIGS. 5 and 6 show a perspective view and a top view of a portion of a pallet conveyor 90 according to a third embodiment, respectively.

In said third embodiment, the pallet chain 90 is provided by a standard chain, as specified in ISO606 or ISO1275, modified by extended pallet chain bolts 46 as described below. The pallet chain 90 comprises outer pallet chain links 42 and inner pallet chain links 44 alternately connected to each other by means of pallet chain bolts 46 providing the joints of the pallet chain 90. Pallet chain rollers 52 are supported within the pallet chain links 42, 44 by the pallet chain bolts 46.

The pallet chain bolts 46 provide the axles of the pallet chain rollers 52 and protrude from the side of the pallet chain 90 facing the pallets 8 thereby forming extensions 47. The extensions 47 of the pallet chain bolts 46 extending from the pallet chain 90 provide fixing elements. The extensions 47/fixing elements are configured to be received by brackets 14 formed on the sides of the fixing modules 2 facing the pallet chain 90. The fixing modules 2 are securely attached to the pallets 8, which will be described in more detail further below, and allow to securely connect the pallets 8 to the pallet chain 90.

Each of the fixing modules 2, exemplary embodiments of which will be described in more detail further below, supports two pallet rollers 54. The pallet rollers 54 are configured for supporting the pallets 8 and the pallet chain 90 on corresponding guide rails, which are not shown in FIGS. 5 and 6, but which are similar to the guide rails 82 a, 84 a shown in FIGS. 3 and 4.

In alternative embodiments, which are not shown in the figures, the pallet rollers 54 may be attached directly to the pallets 8. This allows the pitch of the pallet chain 40, 50, 90 to deviate from the distance between adjacent pallet rollers 54. This in particular allows to increase the distance between adjacent pallet rollers 54 as much as possible for reducing a possible tilting of the pallets 8.

In the embodiment shown in FIGS. 5 and 6 the pitch of the pallet band is four times larger than the pitch of the pallet chain 90. In consequence, only every fourth pallet chain link 42, 44 is connected, by means of a fixing module 2, to one of the pallets 8. Thus, only every fourth of the pallet chain links 42, 44 forms a first pallet chain link. The remaining of the pallet chain links 42, 44 form second pallet chain links. As with the embodiments described above, there is no relative movement between each of the pallets 8 and the first pallet chain link 42 to which it is connected. The remaining other pallet chain links (in the embodiment of FIGS. 5 and 6, two inner pallet chain links 44 and one outer pallet chain link 42) are not directly connected to any pallet 8. Rather, these other pallet chain links form second pallet chain links connecting two adjacent first pallet chain links with each other and simultaneously connecting two adjacent pallets 8 with each other to form the pallet band. While in the embodiment of FIGS. 5 and 6 outer pallet chain links 42 form the first pallet chain links, configurations are conceivable where at least part of the inner pallet chain links 44 form the first pallet chain links.

Again, the number of four pallet chain links 42, 44 per pallet 8 is only exemplary and other ratios between the number of pallets 8 and the number of pallet chain links 42, 44 may be used as well.

In FIG. 5 the pallets 8 are shown without treads 27. In FIG. 6, treads 27 are installed on corresponding upper portions 24 a of the pallet carrier bodies 24.

The upper portions 24 a comprise a plurality of openings 23, e.g. screw holes. These openings 23 allow to fix the treads 27 to the upper portions 24 a by means of bolts, screws, or alternative appropriate fixing elements extending into or through the openings 23.

FIGS. 7 to 9 illustrate cross sectional views of exemplary embodiments of pallets 8.

FIG. 7 illustrates a cross sectional view of a pallet 8 as it may be used in a pallet conveyor 80 having a relatively large turnaround radius, e.g. a pallet conveyor 80 as it is depicted in FIGS. 3 and 4.

In such a pallet conveyor 80 there is more design space in the turnaround portion 85 than in a pallet conveyor 70 having a smaller turnaround radius, i.e. a pallet conveyor 70 as it is shown in FIGS. 1 and 2. Thus, in this case, pallet carrier bodies 24 having the form of a substantially rectangular hollow profile comprising an upper portion 24 a, a lower portion 24 b, which is oriented parallel to the upper portion, and two intermediate portions 24 c respectively extending perpendicularly between the upper portion 24 a and the lower portion 24 b may be used. The tread 27 is attached to the upper portion 24 a of the pallet carrier body 24.

In case of a relatively small turnaround radius, e.g. in an embodiment of a pallet conveyor 70 as it is shown in FIGS. 1 and 2, however, there is much less space in the turnaround portion 75 for accommodating the pallet carrier bodies 24 of adjacent pallets 8.

In order to avoid interference between adjacent pallet carrier bodies 24 in configurations having a small turnaround radius, an alternative design for the pallet carrier body 24 should be used.

An exemplary embodiment of such an alternative design is shown in FIG. 8. According to this embodiment, the pallet carrier body 24 is formed as a hollow profile having a triangular cross section instead of the rectangular cross section as it is shown in FIG. 7. Again, the tread 27 is attached to the upper portion 24 a of the pallet carrier body 24. Such a triangular section cross avoids interference between adjacent pallet carrier bodies 24 in the turnaround portions 75 in configurations in which the turnaround radius is comparatively small.

FIGS. 7 and 8 respectively illustrate two extreme examples of the cross section of the pallet carrier body 24. However, intermediate cross sections in between a rectangular cross section, as it is shown in FIG. 7, and a triangular cross section, as it is shown in FIG. 8, may be employed as well.

Two exemplary embodiments of such intermediate cross sections are shown in FIGS. 9 and 10.

FIG. 9 illustrates a pallet 8, in which the hollow profile forming the pallet carrier body 24 has a trapezoidal cross section. The pallet carrier body 24 in particular comprises an upper portion 24 a and a lower portion 24 b extending parallel to each other, and two inclined intermediate portions 24 c respectively connecting the upper portion 24 a with the lower portion 24 b. In order to avoid interference between the pallet carrier bodies 24 of adjacent pallets 8 in the turnaround portions 75 in case of small turnaround radii, the extension of the lower portion 24 b in the conveying direction, i.e. from left to right in FIG. 9, is considerably smaller than the extension of the upper portion 24 a in said direction.

FIG. 10 illustrates a further embodiment of a pallet 8, which is similar to the embodiment shown in FIG. 9. Again, the pallet carrier body 24 includes an upper portion 24 a and a lower portion 24 b extending parallel to each other, and the extension of the lower portion 24 b in the conveying direction is considerably smaller than the extension of the upper portion 24 a in said direction in order to avoid interference between adjacent pallet carrier bodies 24 in the turnaround portions 75.

In the embodiment illustrated in FIG. 10, each of the inclined intermediate portions 24 c connecting the upper portion 24 a with the lower portion 24 b comprises two sections 24 d, 24 e: a lower section 24 d adjacent to the lower portion 24 b of the pallet carrier body, and an upper section 24 e adjacent to the upper portion 24 a of the pallet carrier body 24. The upper end of the lower section 24 d is connected to the lower end of the upper section 24 e. The upper sections 24 e are inclined with respect to the upper and lower portions 24 a, 24 b of the pallet carrier body 24 at an angle which is larger than the angle of the lower sections 24 d.

The skilled person will understand that pallet carrier body 24 formed as profiles in which the inclined intermediate portions 24 b comprise more than two sections 24 d, 24 e are possible as well. The upper portion 24 a and the lower portion 24 b of the pallet carrier body 24 even may be connected to each other by an arcuate intermediate portion (not shown in the Figures) providing a smooth transition between the upper portion 24 a and the lower portion 24 b of the pallet carrier body 24.

FIG. 11 shows a perspective view of a fixing module 2 which may be used in a pallet conveyor 70, 80 according to exemplary embodiments of the invention for fixing the pallets 8 to the pallet chain 40, 50, 90.

The fixing module 2 has a pallet side 4, which is shown on the left side of FIG. 11, comprising a box-shaped connection portion 6. The connection portion 6 is configured to be inserted into a corresponding receiving space of a pallet (not shown in FIG. 11) for fixing the fixing module 2 in a non-rotatable manner to the pallet.

The connection portion 6 comprises a plurality of openings 21 which may receive screws or bolts (not shown) for securely fixing the connection portion 6 of the fixing module 2 in the receiving space of the pallet.

The fixing module 2 further comprises a pallet chain side 10 which is configured for facing a pallet chain (not shown in FIG. 11) of the pallet conveyor. The pallet chain side 10 is located opposite to the pallet side 4 and is shown on the right side of FIG. 11.

The pallet chain side 10 comprises a bracket 14 which is U-shaped or V-shaped in particular with smooth tangent radii. The bracket 14 is securely connected to, or integrally formed with, the connection portion 6.

The fixing module 2 further comprises a securing element 12, in particular a clamping element, which is movably arranged within the U-shaped or V-shaped bracket 14. In FIG. 11 the clamping element has the configuration of a clamping plate. The securing element 12 is connected to the bracket 14 by means of a tightening element 16, e.g. a screw, which allows to press the securing element 12 against the central portion of the bracket 14 by tightening the tightening element 16.

Two recesses 13 which are configured for respectively receiving a fixing element protruding from the pallet chain (not shown) are formed on the upper side of the movable securing element 12 facing the bracket 14. As a result, the fixing module 2 may be non-rotatably fixed to the pallet chain by tightening the tightening element 16, thereby clamping the fixing elements protruding from the pallet chain between the securing element 12 and the bracket 14.

Although only one tightening element 16 is shown in FIG. 11, the skilled person will understand that a plurality of tightening elements 16 may be used, if considered appropriate.

FIG. 11a shows the fixing module 2 shown in FIG. 11 attached to a pallet 8 of the pallet conveyor. In FIG. 11a a tread 27 is installed on the upper side of the pallet 8.

The details of the connection between the fixing module 2 and the pallet 8 become more apparent from FIGS. 12 and 13.

FIG. 12 shows a first embodiment of a pallet assembly comprising a fixing module 2, as it is illustrated in FIGS. 11 and 11 a, and a pallet carrier body 24 of a pallet 8 according to a first embodiment.

The carrier body 24 is provided by a box-shaped hollow profile comprising rounded corners, as it has been discussed with reference to FIG. 7. The upper portion 24 a of the pallet carrier body 24 is configured for receiving and supporting the tread 27 (not shown in FIG. 12). The upper portion 24 a of the pallet carrier body 24 is provided with an additional plate 30, which is attached to the upper portion 24 a from below, i.e. from inside the hollow profile.

A connection block is 32 is provided inside the portion 24 a at its bottom. A receiving space 20 for receiving the connection portions 6 of the fixing module 2 is provided between the upper side of the connection block 32 and the lower side of the additional plate 30.

Openings 23, 25 are formed within the upper portion 24 a, the additional plate 30 and the connection block 32. The openings 23, 25 allow to securely fix the connection portion 6 of the fixing module 2 to the pallet carrier body 24 by means of screws or bolts (not shown) extending through said openings 23, 25 and corresponding openings 21 which are formed within the connection portion 6 of the fixing module 2.

FIG. 13 illustrates an alternative embodiment in which the hollow profile forming the pallet carrier body 24 has a tapered cross section as it has been discussed with reference to FIG. 10. The connection portion 6 of the fixing module 2 is formed correspondingly allowing the fixing module 2 to be inserted into the pallet carrier body 24.

The additional features shown in FIG. 13 correspond to the respective features shown in FIG. 12 and are therefore not discussed in detail again.

In an alternative embodiment, as it is shown in FIGS. 13a to 13c , the fixing module 2 is formed integrally with the pallet 8, 9. The fixing module 2 for example may be welded to the pallet 8, 9. Alternatively, the fixing module 2 may be integrated into a cast pallet 8, 9, e.g. a cast pallet 8, 9 made of aluminum.

In the embodiment shown in FIGS. 13a to 13c the pallet carrier body 24 is formed with recesses for reducing the weight of the pallet 8. In alternative embodiments, which are not shown in the figures, the pallet carrier body 24 may have a grid or honeycomb structure including holes.

FIGS. 14 and 15 illustrate the connection of the pallet chain side 10 of the fixing module 2 to a pallet chain 40, 50, respectively.

FIG. 14 shows a portion of a pallet chain 40 according to an embodiment comprising two pallet chain links 42, 44, in particular an outer pallet chain link 42 and an inner pallet chain link 44 which are connected to each other by a respective pallet chain link bolt 46. Each pallet chain link 42, 44 is formed by a pair of pallet chain link plates 42 a, 42 b, 44 a, 44 b facing each other and forming a gap in between. On the side facing the pallet 8, the pallet chain link bolts 46 protrude from the pallet chain links 42, 44 towards the pallet 8. The protruding portions 47 of the pallet chain link bolts 46 act as fixing elements which are configured to be fixed to the pallet 8 by the fixing module 2.

Pallet chain rollers 48 are supported by the pallet chain link bolts 46 in the gap within the pallet chain links 42, 44.

The pallet chain rollers 48 are configured for engaging a drive sprocket (not shown). In the embodiment shown in FIG. 14, the pallet chain rollers 48 are also configured for acting as pallet rollers which support the weight of the pallet chain 40 and the pallets 8 on a corresponding guide rail, which is not shown in the figures.

For fixing a pallet 8 to the pallet chain 40, the protruding portions 47 of the pallet chain link bolts 46 are inserted into the U-shaped opening formed by the bracket 14 of the fixing module 2. In a following step, the movable securing element 12 is attached from below and clamped against the bracket 14 by tightening the tightening element 16. As a result, the protruding portions 47 of the pallet chain link bolts 46 are securely clamped between the movable securing element 12 and the bracket 14 of the fixing module 2 thereby securely fixing the pallet 8 to a pallet chain link 42, 44 of the pallet chain 40.

In FIG. 14, two pallet chain link bolts 46 assigned to a same outer pallet chain link 42 are used for fixing the pallet chain 40 to the fixing module 2. Thereby, the pallet 8 is non-rotatably fixed with respect to said outer pallet chain link 42. Similarly, in case two pallet chain link bolts 46 assigned to a same inner pallet chain link 44 are fixed to the fixing module 2, the pallet 8 can be fixed non-rotatably with respect to an inner pallet chain link 44. Either construction is possible.

FIG. 15 illustrates another embodiment. According to the embodiment shown in FIG. 15, the bracket 14 of the fixing module 2 is integrally formed with, or fixed to, the upper portion 24 a of the pallet 8, e.g. by welding, thereby providing a fixing portion of the pallet 8.

The embodiment of the pallet chain 50 shown in FIG. 15 differs from the embodiment of the pallet chain 40 shown in FIG. 14 in that it comprises pallet rollers 54, in addition to the pallet chain rollers 52 arranged in the gaps formed within the pallet chain links 42, 44 of the pallet chain 50. The pallet rollers 54 are provided laterally outside the pallet chain links 42, 44 on the side opposite to the pallet 8. The pallet rollers 54 are supported by the pallet chain link bolts 46 which protrude from the pallet chain links 42, 44 on the side facing away from the pallet 8 as well such as to form supporting portions for the pallet rollers 54. In an alternative embodiment, the pallet rollers may be located at the opposite side facing the pallet 8 in order to reduce the bending stress acting on the pallet chain link bolts 46.

The pallet chain rollers 52 are configured for engagement with a corresponding drive and/or turnaround element, e.g. a sprocket (not shown). The pallet rollers 54 are configured for supporting the pallet chain 50 and in particular the weight of the pallets 8 and a load on said pallet 8 on corresponding guide rails, which are not shown in the figures. In order to enhance the comfort of the passengers, the pallet rollers 54 may be made from a softer/more elastic material than the pallet chain rollers 52. A hard material may be used for the pallet chain rollers 52 in order to reduce their wear and increase their lifetime.

In case there is an uneven number of pallet chain links 42, 44 per pallet, offset chain links may be used. An offset chain link comprises a first side, which is configured to be connected to an inner chain link 42, and a second side, which is configured to be connected to an outer chain link 42. The distance between the plates of the offset chain link at the first side corresponds to the distance between the pallet chain link plates 42 a, 42 b of an outer chain link 42, and the distance between the plates of the offset chain link at the second side corresponds to the distance between the pallet chain link plates 44 a, 44 b of an inner chain link 44. A pallet chain 50 comprising offset chain links allows to connect the fixings modules 2/pallets to outer pallet chain links 42 even if there is an uneven number of pallet chain links 42, 44 per pallet.

FIG. 15a illustrates an alternative configuration. If the pallet chain links 42, 44 are long enough so that there is enough space between adjacent pallet chain link bolts 46, intermediate bolts 45 may be added to the pallet chain links 42, 44 in between said adjacent pallet chain link bolts 46. The fixing modules 2/pallets 8 may be fixed to said intermediate bolts 45. In this case, appropriate recesses for accommodating the intermediate bolts 45 are provided within the sprocket 78 and/or linear drives are used for driving the pallet chains 50.

FIG. 16 shows an embodiment, in which an alignment protrusion 18 is formed at the side of the bracket 14 of the fixing module 2 facing the pallet chain 50.

Optionally, one of the pallet chain link plates of the pallet chain link 42 may be formed with a corresponding cutout which is configured for receiving the alignment protrusion 18.

The interaction of the alignment protrusion 18 with the pallet chain link 42 facilitates a precise positioning of the pallet 8 with respect to the pallet chain link 42. Exact positioning of the pallet 8 with respect to the pallet chain link 42 is beneficial as the pallets 8 define the distance between the two pallets chains 50 which are provided on both sides of the conveyor. This distance between the pallets chains 50 should be kept as constant as possible over the whole length of the conveyor in order to secure a smooth entry of the pallets and treads into comb plates provided at the landing zones.

FIG. 16a shows a bottom view of a pallet 8 having a non-constant cross section in a direction perpendicular to the conveying direction. As depicted in FIG. 16a , the extension of the upper portion 24 a as well as of the lower portion 24 b of the pallet carrier body 24 in the conveying direction, which extends from the bottom to the top in FIG. 16a , varies from left to right, i.e. in a direction perpendicular to the conveying direction. The upper portion 24 a and the lower portion 24 b of the pallet carrier body 24 in particular have their largest extension at a central portion 92 of the pallet 8 and their shortest extension at lateral side portions 94 next to the brackets 14, respectively.

Alternatively, only one of the upper portion 24 a and the lower portion 24 b of pallet carrier body 24 may be formed having a non-constant cross section. The varying cross sections may have different shapes than that shown in FIG. 16a . Employing a non-constant cross section may help to reduce the weight of the pallet 8.

FIGS. 17 and 18 illustrate an additional optional feature facilitating a secure connection between the pallet chain 40 and the pallets 8 using the fixing mechanism 2, particularly during the installation of a pallet conveyor and for maintenance purposes.

In this embodiment the securing element 12 comprises an additional installation plate 60. The installation plate 60 in particular may be provided at the side of the securing element 12 facing the pallet chain 40, as it is shown in FIG. 17. The installation plate 60 is provided with two openings 62. Each of the openings 62 has a diameter which is slightly larger than the diameter of the protruding portions 47 of the pallet chain link bolts 46. In consequence, the openings 62 allow to loosely hang the securing elements 12 onto the protruding portions 47 of the pallet chain link bolts 46 in preparation of the installation, as it is shown on the right side of FIG. 17. In the next step, which is not shown in the figures, the bracket 14 of the fixing module 2 (not shown in FIG. 17) is added from above and the securing element 12 is moved towards the bracket 14 clamping the protruding portions 47 of the pallet chain link bolts 46 by inserting and tightening the tightening element 16, as it has been described before.

In addition, in case the tightening element 16 is untightened for removing a pallet 8 from the pallet chain 40, the installation plate 60 will prevent the securing element 12 from falling down. Instead, the securing element 12 will remain at the pallet chain 40 supported by the protruding portions 47 of the pallet chain link bolts 46, as it is shown on the right side of FIG. 17.

In the embodiment shown in FIG. 18, the installation plate 60 additionally comprises two retaining flaps 64 which are configured for embracing the bracket 14 in the installed position, as shown on the right side of FIG. 18. The retaining flaps 64 avoid that the pallet 8 loses its connection with the pallet chain 50 in case the tightening element 16 breaks or loosens. The retaining flaps 64 further facilitate the detection of a loose or broken clamping screw 16 because it defines/locks the position of the bracket 14 and securing element 12 on the protruding portions 47 of the pallet chain link bolts 46.

A fixing module 2 as it has been described with reference to FIGS. 5, 6, and 11 to 17, facilitates the installation of pallets 8 to the pallet chain 40, 50, 90 of a pallet conveyor. It further allows to remove the pallets 8 not only in the turnaround sections 75, 85 but also in the straight parts of a pallet conveyor 70, 80, particularly the transportation portion and the return portion.

As a result, not only the installation but also the maintenance of the pallet conveyor 70, 80 are considerably facilitated.

A number of optional features are set out in the following. These features may be realized in particular embodiments, alone or in combination with any of the other features.

In an embodiment the plurality of pallets may be interconnected by respective pallet chain links. Thereby, the pallet chain connects consecutive pallets rotatably to each other, such as to form joints of the pallet band. As each of the pallets in the pallet band is non-rotatably connected to at least one pallet chain link, the pallet band can be guided along the endless path by the same guiding mechanism as the pallet chain. This avoids the need for separate guiding mechanisms of the pallet band and the pallet chain. Moreover, the pallet chain pitch can be reduced as far as required to achieve a compact dimension of the pallet conveyor in the turnaround portions. Particularly, adjacent pallets—each of which is non-rotatably fixed to a first pallet chain link—may be connected by a second pallet chain link connecting the two first pallet chain links with each other. In some embodiments, it is even possible to interconnect adjacent pallets by a group of second pallet chain links, e.g. by a group of three pallet chain links. Differently from the first pallet chain links, the second pallet chain links are not directly fixed to a pallet and act as the joints of the pallet band connecting adjacent pallets rotatably with each other.

Further, the center of the pallets may coincide with the center of the pallet chain links with respect to the conveying direction. This results in a symmetric configuration which is particularly helpful for pallet conveyors operating in both directions, i.e. in a forward direction and in an opposite reverse direction.

Further the pallet chain may comprise N pallet chain links per pallet and the length of the pallets in the conveying direction may be N-times larger than the length of the pallet chain links. Such a configuration creates an overhang of the front and rear edges of the pallets which allows the pallets to abut each other contiguously in the transportation region thereby resulting in a continuous transportation area formed by the pallets in the transportation region of the pallet conveyor. Gaps between adjacent pallets in the transportation region can be made as small as required.

Further, the pallet chain may comprise pallet chain bolts connecting adjacent pallet chain links with each other. In such configuration, each of the pallets may be fixed using pallet chain bolts. Particularly, the pallet may be attached to at least two adjacent pallet chain bolts. Usually, the pallet chain bolts are made from strong material and manufactured with only small manufacturing tolerances. Using the pallet chain bolts for attaching the pallets to the pallet chain therefore provides a precise and secure connection between the pallets and the pallet chain without the need for providing additional fixing elements. Using at least two pallet chain bolts for fixing a respective pallet conveniently provides for a non-rotatable fixation of the pallet to the pallet chain. Alternatively, a pallet may be fixed using only one pallet chain bolt, in case the connection is configured such that a non-rotatable fixation of the pallet is possible, e.g. by providing a non-circular portion of the pallet chain bolt which engages the pallet.

In an alternative embodiment, the pallets may be fixed directly to the link plates of inner or/and outer links, e.g. by welding.

According to another alternative, the pallet replaces the adjacent pallet chain link, i.e. in such a configuration the pallet is equipped with two joints including pins and/or bushings and these “chain-link-pallets” are connected to each other by means of chain links. In such a configuration, the pallets transmit the tension force of the former link plates.

Further, the pallet chain may comprise outer pallet chain links and inner pallet chain links, which are alternately and rotatably connected to each other by the pallet chain bolts. In such configuration it may be convenient to fix each of the pallets to two adjacent pallet chain bolts which are connected to each other by a same pallet chain link, particularly by a same outer pallet chain link. This causes a non-rotatable connection of the respective pallet to the pallet chain link, particularly to the outer pallet chain link. Thereby, the pallet is non-rotatably connected to the pallet chain link, avoiding any movement and friction between the pallets and the pallet chain link.

Further, the pallet conveyor may comprise pallet chain rollers, and the pallet chain bolts may act as the axles of the pallet chain rollers. Pallet chain rollers reduce the friction and wear between the pallet chain and a turnaround and/or drive sprocket interacting with the pallet chain.

In an embodiment the pallet chain rollers may act at least partially as pallet rollers supporting the pallets on a corresponding track. This avoids the need for additional pallet rollers.

In an embodiment the pallet conveyor may comprise additional pallet rollers which are configured for supporting the pallets on a corresponding track, particularly when the pallets travel along the transportation portion of the pallet conveyor. Particularly, the pallet conveyor may comprise four pallet rollers per pallet, two pallet rollers on each lateral side of the pallet. Providing pallet rollers in addition to the pallet chain rollers allows using two different materials for the pallet rollers and the pallet chain rollers, respectively. It in particular allows using a hard material for the pallet chain rollers in order to reduce wear, and using an elastic material for the pallet rollers for enhancing the riding comfort.

Such a configuration allows for an increased distance between the pallet rollers which helps to reduce tilting of the pallets. A further benefit is that smaller steel-chain-roller diameters allow for a smaller diameter of the turnaround sprockets.

In an embodiment axles of the pallet rollers may be attached directly to the pallet. The axles of the pallet rollers in particular may be spaced apart in the horizontal and/or in the vertical direction from the axles of the chain links provided by the pallet chain link bolts. Increasing the distance between the axles of the pallet rollers and the axles of the chain links helps reducing a possible tilting of the pallets.

In an embodiment the pallet conveyor may further comprise fixing modules which are configured for attaching the pallets to the pallet chain. Fixing modules allow for an easy and reliable connection between the pallets to the pallet chain.

In case the pallet conveyor further comprises pallet rollers as described above, these pallet rollers may be rotatably attached to the fixing modules. Particularly, two pallet rollers may be rotatably attached to each fixing module.

In an embodiment each pallet may comprise a tread and a pallet carrier body. In such a configuration, the length of the pallet carrier body, in particular the length of a lower portion of the pallet carrier body, in the conveying direction may be shorter than the length of the tread in said conveying direction. Such a configuration avoids interference between the pallet carrier bodies of adjacent pallets in the turnaround sections of the pallet band. For example, the pallet carrier body in particular may have a trapezoidal or triangular shape.

Further, the pallet carrier body in particular may be made of a hard material, e.g. steel or a material including steel. Further, the pallet carrier body may comprise a hollow profile. A hollow profile, in particular a hollow profile made of a steel material, provides a pallet carrier body having a high rigidity which is easy to produce.

Further, the pallet carrier body may be connected to the tread by means of at least one connection element.

While the invention has been described with reference to exemplary embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In addition many modifications may be made to adopt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention include all embodiments falling within the scope of the claims.

REFERENCES

-   2 fixing module -   4 pallet side of the fixing module -   6 connection portion -   8 pallet -   10 pallet chain side -   11 fixing portion -   12 securing element -   13 recess in the securing element -   14 bracket -   16 tightening element -   18 alignment protrusion -   20 receiving space -   23 openings -   24 pallet carrier body -   24 a upper portion pallet carrier body -   24 b lower portion pallet carrier body -   24 c intermediate pallet carrier body -   24 d lower section of the intermediate portion of the pallet carrier     body -   24 e upper section of the intermediate portion of the pallet carrier     body -   25 openings -   27 tread -   30 additional plate -   32 connection block -   40 pallet chain (second embodiment) -   42 outer pallet chain link -   42 a, 42 b outer pallet chain link plates -   44 inner pallet chain link -   44 a, 44 b inner pallet chain link plates -   45 intermediate bolt -   46 pallet chain link bolt -   47 extension of the pallet chain link bolt -   48 pallet chain roller (second embodiment) -   50 pallet chain (first embodiment) -   52 pallet chain roller (third embodiment) -   54 pallet roller -   60 installation plate -   62 opening in the installation plate -   64 retaining flap -   70 pallet conveyor (first embodiment) -   71 transportation portion (first embodiment) -   73 return portion (first embodiment) -   74 comb plate -   75 turnaround portion (first embodiment) -   76 comb -   78 turnaround sprocket (first embodiment) -   80 pallet conveyor (second embodiment) -   81 transportation portion (second embodiment) -   82 a guide rail (in the transportation portion) -   82 b up-thrust tracks (in the transportation portion) -   83 return portion (second embodiment) -   84 a guide rail (in the return portion) -   84 b up-thrust tracks (in the return portion) -   85 turnaround portion (second embodiment) -   88 turnaround sprocket (second embodiment) -   90 pallet chain (third embodiment) 

What is claimed is:
 1. Pallet conveyor comprising a plurality of pallets interconnected to form an endless pallet band, which is moveable in a conveying direction, and at least one pallet chain, wherein: the pallet chain comprises a plurality of pallet chain links and pallet chain bolts connecting adjacent pallet chain links; the pitch of the pallet band is larger than the pitch of the pallet chain; and each of the pallets comprises a fixing portion accommodating two adjacent pallet chain bolts for non-rotatably connecting the respective pallet to the pallet chain links.
 2. Pallet conveyor according to claim 1, wherein the plurality of pallets are interconnected by respective pallet chain links.
 3. Pallet conveyor according to claim 1, wherein, with respect to the conveying direction, the center of each of the pallets coincides with the center of the respective pallet chain link to which said pallet is connected.
 4. Pallet conveyor according to claim 1, wherein the pallet chain comprises N pallet chain links per pallet and wherein the length of the pallets in the conveying direction is N-times larger than the length of the pallet chain links.
 5. Pallet conveyor according to claim 1, wherein the pallet chain comprises outer pallet chain links and inner pallet chain links, which are alternately and rotatably connected to each other by the pallet chain bolts.
 6. Pallet conveyor according to claim 1, comprising fixing modules which are configured for attaching the pallets to the pallet chain.
 7. Pallet conveyor according to claim 1, wherein the pallet is an aluminum cast component.
 8. Pallet conveyor according to claim 1, wherein the pallet conveyor is a people conveyor.
 9. Pallet conveyor according to claim 1, comprising pallet chain rollers, wherein the pallet chain bolts act as axles of the pallet chain rollers.
 10. Pallet conveyor according to claim 9, wherein the pallet chain rollers at least partially act as pallet rollers supporting the pallets on a corresponding track.
 11. Pallet conveyor according to claim 1, comprising four pallet rollers for every pallet, for supporting the pallets on a corresponding track.
 12. Pallet conveyor according to claim 11, wherein the pallet rollers are rotatably attached to the fixing modules.
 13. Pallet conveyor according to claim 12, wherein two pallet rollers are rotatably attached to each fixing module.
 14. Pallet conveyor according to claim 1, wherein each pallet comprises a tread and a pallet carrier body including an upper portion supporting the tread and a lower portion, wherein the length of the lower portion in the conveying direction is shorter than the length of the tread in said conveying direction.
 15. Pallet conveyor according to claim 14, wherein the pallet carrier body comprises a material including steel.
 16. Pallet conveyor according to claim 14, wherein the upper portion of the pallet carrier body is connected with the lower portion by at least one intermediate portion.
 17. Pallet conveyor according to claim 14, wherein the pallet carrier body comprises a hollow profile and has a rectangular, trapezoidal or triangular shape.
 18. Pallet conveyor comprising a plurality of pallets interconnected to form an endless pallet band, which is moveable in a conveying direction, and at least one pallet chain, wherein: the pallet chain comprises a plurality of pallet chain links; the pitch of the pallet band is larger than the pitch of the pallet chain; and each pallet is integrally formed with at least one of the pallet chain links.
 19. Pallet conveyor according to claim 18, wherein the pallet conveyor is a people conveyor. 